Anesthesiology
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The analgesic and sedative-hypnotic utility of the alpha 2 agonists clonidine and dexmedetomidine are currently being investigated. Both compounds exert their behavioral responses by activating central alpha 2 adrenoceptors, albeit with different selectivities and efficacies. Furthermore, the analgesic and hypnotic behavioral responses are produced at different sites and may be affected independently of one another. A series of studies was conducted in rats to determine (1) whether tolerance and cross-tolerance develop to the analgesic actions of clonidine or dexmedetomidine; (2) how the number of available alpha 2 adrenoceptors affects the analgesic response to dexmedetomidine and clonidine; and (3) how the number of available alpha 2 adrenoceptor affects the hypnotic response to dexmedetomidine. ⋯ Fewer alpha 2 adrenoceptors need to be available for analgesia to be produced by dexmedetomidine compared with the number required for analgesia by clonidine. This difference should result in less tolerance in the analgesic response to dexmedetomidine than to clonidine with chronic use. Dexmedetomidine requires fewer alpha 2 adrenoceptors to elicit an analgesic response than it does to elicit a hypnotic response. Thus the analgesic properties of alpha 2-adrenergic agonists persist after the hypnotic response has been attenuated after chronic alpha 2 agonist administration.
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Comparative Study
Abnormal action potential responses to halothane in heart muscle isolated from malignant hyperthermia-susceptible pigs.
During human and porcine malignant hyperthermia (MH), cardiac dysrhythmias and altered myocardial function can be observed. It is unknown whether a primary abnormality in cardiac muscle contributes to the cardiac symptoms during MH. An abnormal response to halothane has recently been demonstrated in action potentials (APs) from MH-susceptible (MHS) human skeletal muscles. We investigated the electrophysiologic properties in trabeculae isolated from the right ventricles of normal (MHN) and MHS pigs. ⋯ This in vitro study demonstrates that halothane produces abnormal alterations in the dynamic electric properties of the ventricular excitable membrane from MHS pigs. These results suggest a latent defect in the myocardium of MHS pigs that becomes apparent in the presence of MH-triggering agents.
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Mivacurium, a nondepolarizing muscle relaxant, is metabolized by plasma cholinesterase. Although edrophonium does not alter plasma cholinesterase activity, we have observed that doses of edrophonium that antagonize paralysis from other nondepolarizing muscle relaxants are less effective with mivacurium. We speculated that edrophonium might after metabolism of mivacurium, thereby hindering antagonism of paralysis. Accordingly, we determined the effect of edrophonium on neuromuscular function and plasma mivacurium concentrations during constant mivacurium infusion. ⋯ Edrophonium doses that antagonize d-tubocurarine and vecuronium are less effective in antagonizing the neuromuscular effects of mivacurium during constant infusion. Edrophonium increases plasma mivacurium concentrations, partly or completely explaining its limited efficacy; the mechanism by which edrophonium increases mivacurium concentrations remains unexplained. Our results demonstrate that antagonism of mivacurium by edrophonium is impaired, and therefore we question whether edrophonium should be used to antagonize mivacurium.
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Comparative Study
Triiodothyronine increases contractility independent of beta-adrenergic receptors or stimulation of cyclic-3',5'-adenosine monophosphate.
Triiodothyronine regulates cardiac contractility; however, the mechanisms by which it produces its acute contractile effects remains unknown. We compared the acute effects of thyroid hormones (triiodothyronine [T3] and thyroxine [T4]) and of isoproterenol on the contractility of isolated rat hearts. In addition, we sought to determine whether the acute inotropic effects of thyroid hormones were mediated by beta-adrenergic receptors or by increased production of cyclic-3',5'-adenosine monophosphate (cAMP). ⋯ These results demonstrate that the acute inotropic effects of T3 are not shared by T4 and appear unrelated to beta-adrenergic receptor mechanisms or to generation of cAMP. Thus, T3 acutely stimulates cardiac contraction by mechanisms that differ from those of the more commonly used beta-adrenergic receptor agonists and phosphodiesterase inhibitors. Further studies are needed to identify the mechanisms underlying the acute contractile effects of T3 and to determine whether T3 will prove useful for increasing ventricular function in patients.
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Quantitative behavioral testing is necessary to establish a reproducible measure of differential functional blockade during regional anesthesia. Methods for assessment of the neurologic status (mental status, posture, gait, proprioception, motor function, autonomic function, and nociception) in veterinary neurology were adapted for the rat and used to monitor functional changes separately during a sciatic nerve block. ⋯ Quantitative observations of the onset, offset, and intensity of differential functional impairment or block over time will make it possible to establish the doses and conditions for local anesthetics that result in differential nerve block and will permit comparison of these changes among different drugs and "clinical" protocols.